Abstract
Over the past decade, many skeletal matrix proteins that are possibly related to calcification have been reported in various calcifying animals. Molluscs are among the most diverse calcifying animals and some gastropods have adapted to terrestrial ecological niches. Although many shell matrix proteins (SMPs) have already been reported in molluscs, most reports have focused on marine molluscs, and the SMPs of terrestrial snails remain unclear. In addition, some terrestrial stylommatophoran snails have evolved an additional unique calcified character, called a “love dart,” used for mating behavior. We identified 54 SMPs in the terrestrial snail Euhadra quaesita, and found that they contain specific domains that are widely conserved in molluscan SMPs. However, our results also suggest that some of them possibly have evolved independently by domain shuffling, domain recruitment, or gene co-option. We then identified four dart matrix proteins, and found that two of them are the same proteins as those identified as SMPs. Our results suggest that some dart matrix proteins possibly have evolved by independent gene co-option from SMPs during dart evolution events. These results provide a new perspective on the evolution of SMPs and “love darts” in land snails.
Highlights
A variety of calcifying organisms have evolved ever since the Cambrian
We found that carbonic anhydrase binding motif 14 (CBM_14) is the only specific domain found in shell matrix proteins (SMPs) for all 12 molluscs and is contained in SMP (Equ10634) and dart matrix proteins (DMPs) (Equ50224) of E. quaesita
These results indicate that the last common ancestor of pulmonates evolved specific SMPs including both novel proteins and already existing proteins that did not play roles in shell development before
Summary
A variety of calcifying organisms have evolved ever since the Cambrian. “Calcification” was a key morphological innovation that allowed for the diversification of metazoan life, because mineralized structures play various roles such as support for soft body parts, as devices for feeding or sensing, and as protection against predators or extreme environments. “omics” approaches have advanced considerably, making it possible to analyze the molecular basis of interesting phenomena in both model and nonmodel organisms.
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